---
_id: '12159'
abstract:
- lang: eng
text: The term “haplotype block” is commonly used in the developing field of haplotype-based
inference methods. We argue that the term should be defined based on the structure
of the Ancestral Recombination Graph (ARG), which contains complete information
on the ancestry of a sample. We use simulated examples to demonstrate key features
of the relationship between haplotype blocks and ancestral structure, emphasizing
the stochasticity of the processes that generate them. Even the simplest cases
of neutrality or of a “hard” selective sweep produce a rich structure, often missed
by commonly used statistics. We highlight a number of novel methods for inferring
haplotype structure, based on the full ARG, or on a sequence of trees, and illustrate
how they can be used to define haplotype blocks using an empirical data set. While
the advent of new, computationally efficient methods makes it possible to apply
these concepts broadly, they (and additional new methods) could benefit from adding
features to explore haplotype blocks, as we define them. Understanding and applying
the concept of the haplotype block will be essential to fully exploit long and
linked-read sequencing technologies.
acknowledgement: 'We thank the Barton group for useful discussion and feedback during
the writing of this article. Comments from Roger Butlin, Molly Schumer''s Group,
the tskit development team, editors and three reviewers greatly improved the manuscript.
Funding was provided by SCAS (Natural Sciences Programme, Knut and Alice Wallenberg
Foundation), an FWF Wittgenstein grant (PT1001Z211), an FWF standalone grant (grant
P 32166), and an ERC Advanced Grant. YFC was supported by the Max Planck Society
and an ERC Proof of Concept Grant #101069216 (HAPLOTAGGING).'
article_processing_charge: Yes (via OA deal)
article_type: original
author:
- first_name: Daria
full_name: Shipilina, Daria
id: 428A94B0-F248-11E8-B48F-1D18A9856A87
last_name: Shipilina
orcid: 0000-0002-1145-9226
- first_name: Arka
full_name: Pal, Arka
id: 6AAB2240-CA9A-11E9-9C1A-D9D1E5697425
last_name: Pal
orcid: 0000-0002-4530-8469
- first_name: Sean
full_name: Stankowski, Sean
id: 43161670-5719-11EA-8025-FABC3DDC885E
last_name: Stankowski
- first_name: Yingguang Frank
full_name: Chan, Yingguang Frank
last_name: Chan
- first_name: Nicholas H
full_name: Barton, Nicholas H
id: 4880FE40-F248-11E8-B48F-1D18A9856A87
last_name: Barton
orcid: 0000-0002-8548-5240
citation:
ama: Shipilina D, Pal A, Stankowski S, Chan YF, Barton NH. On the origin and structure
of haplotype blocks. Molecular Ecology. 2023;32(6):1441-1457. doi:10.1111/mec.16793
apa: Shipilina, D., Pal, A., Stankowski, S., Chan, Y. F., & Barton, N. H. (2023).
On the origin and structure of haplotype blocks. Molecular Ecology. Wiley.
https://doi.org/10.1111/mec.16793
chicago: Shipilina, Daria, Arka Pal, Sean Stankowski, Yingguang Frank Chan, and
Nicholas H Barton. “On the Origin and Structure of Haplotype Blocks.” Molecular
Ecology. Wiley, 2023. https://doi.org/10.1111/mec.16793.
ieee: D. Shipilina, A. Pal, S. Stankowski, Y. F. Chan, and N. H. Barton, “On the
origin and structure of haplotype blocks,” Molecular Ecology, vol. 32,
no. 6. Wiley, pp. 1441–1457, 2023.
ista: Shipilina D, Pal A, Stankowski S, Chan YF, Barton NH. 2023. On the origin
and structure of haplotype blocks. Molecular Ecology. 32(6), 1441–1457.
mla: Shipilina, Daria, et al. “On the Origin and Structure of Haplotype Blocks.”
Molecular Ecology, vol. 32, no. 6, Wiley, 2023, pp. 1441–57, doi:10.1111/mec.16793.
short: D. Shipilina, A. Pal, S. Stankowski, Y.F. Chan, N.H. Barton, Molecular Ecology
32 (2023) 1441–1457.
date_created: 2023-01-12T12:09:17Z
date_published: 2023-03-01T00:00:00Z
date_updated: 2023-08-16T08:18:47Z
day: '01'
ddc:
- '570'
department:
- _id: NiBa
doi: 10.1111/mec.16793
external_id:
isi:
- '000900762000001'
pmid:
- '36433653'
file:
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checksum: b10e0f8fa3dc4d72aaf77a557200978a
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creator: dernst
date_created: 2023-08-16T08:15:41Z
date_updated: 2023-08-16T08:15:41Z
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file_name: 2023_MolecularEcology_Shipilina.pdf
file_size: 7144607
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success: 1
file_date_updated: 2023-08-16T08:15:41Z
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isi: 1
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keyword:
- Genetics
- Ecology
- Evolution
- Behavior and Systematics
language:
- iso: eng
month: '03'
oa: 1
oa_version: Published Version
page: 1441-1457
pmid: 1
project:
- _id: 05959E1C-7A3F-11EA-A408-12923DDC885E
grant_number: P32166
name: The maintenance of alternative adaptive peaks in snapdragons
- _id: 25F42A32-B435-11E9-9278-68D0E5697425
call_identifier: FWF
grant_number: Z211
name: The Wittgenstein Prize
- _id: bd6958e0-d553-11ed-ba76-86eba6a76c00
grant_number: '101055327'
name: Understanding the evolution of continuous genomes
publication: Molecular Ecology
publication_identifier:
eissn:
- 1365-294X
issn:
- 0962-1083
publication_status: published
publisher: Wiley
quality_controlled: '1'
scopus_import: '1'
status: public
title: On the origin and structure of haplotype blocks
tmp:
image: /images/cc_by.png
legal_code_url: https://creativecommons.org/licenses/by/4.0/legalcode
name: Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)
short: CC BY (4.0)
type: journal_article
user_id: 2DF688A6-F248-11E8-B48F-1D18A9856A87
volume: 32
year: '2023'
...
---
_id: '11411'
abstract:
- lang: eng
text: Many studies have quantified the distribution of heterozygosity and relatedness
in natural populations, but few have examined the demographic processes driving
these patterns. In this study, we take a novel approach by studying how population
structure affects both pairwise identity and the distribution of heterozygosity
in a natural population of the self-incompatible plant Antirrhinum majus. Excess
variance in heterozygosity between individuals is due to identity disequilibrium,
which reflects the variance in inbreeding between individuals; it is measured
by the statistic g2. We calculated g2 together with FST and pairwise relatedness
(Fij) using 91 SNPs in 22,353 individuals collected over 11 years. We find that
pairwise Fij declines rapidly over short spatial scales, and the excess variance
in heterozygosity between individuals reflects significant variation in inbreeding.
Additionally, we detect an excess of individuals with around half the average
heterozygosity, indicating either selfing or matings between close relatives.
We use 2 types of simulation to ask whether variation in heterozygosity is consistent
with fine-scale spatial population structure. First, by simulating offspring using
parents drawn from a range of spatial scales, we show that the known pollen dispersal
kernel explains g2. Second, we simulate a 1,000-generation pedigree using the
known dispersal and spatial distribution and find that the resulting g2 is consistent
with that observed from the field data. In contrast, a simulated population with
uniform density underestimates g2, indicating that heterogeneous density promotes
identity disequilibrium. Our study shows that heterogeneous density and leptokurtic
dispersal can together explain the distribution of heterozygosity.
acknowledged_ssus:
- _id: ScienComp
acknowledgement: "Part of this work was funded by Marie Curie COFUND Doctoral Fellowship
and Austrian Science Fund FWF (grant P32166).\r\nWe thank the many volunteers and
friends who have contributed to data collection in the field site over the years,
in particular those who have managed field seasons: Barbora Trubenova, Maria Clara
Melo, Tom Ellis, Eva Cereghetti, Lenka Matejovicova, Beatriz Pablo Carmona. Frederic
Ferrer and Eva Salmerón Mateu have been immensely helpful with logistics at our
informal field station, El Serrat de Planoles. We thank Sean Stankowski for technical
help in\r\nproducing figure 1. This research was also supported by the Scientific
Service Units (SSU) of IST Austria through resources provided by Scientific Computing
(SciComp)."
article_number: iyac083
article_processing_charge: No
article_type: original
author:
- first_name: Parvathy
full_name: Surendranadh, Parvathy
id: 455235B8-F248-11E8-B48F-1D18A9856A87
last_name: Surendranadh
- first_name: Louise S
full_name: Arathoon, Louise S
id: 2CFCFF98-F248-11E8-B48F-1D18A9856A87
last_name: Arathoon
orcid: 0000-0003-1771-714X
- first_name: Carina
full_name: Baskett, Carina
id: 3B4A7CE2-F248-11E8-B48F-1D18A9856A87
last_name: Baskett
orcid: 0000-0002-7354-8574
- first_name: David
full_name: Field, David
id: 419049E2-F248-11E8-B48F-1D18A9856A87
last_name: Field
orcid: 0000-0002-4014-8478
- first_name: Melinda
full_name: Pickup, Melinda
id: 2C78037E-F248-11E8-B48F-1D18A9856A87
last_name: Pickup
orcid: 0000-0001-6118-0541
- first_name: Nicholas H
full_name: Barton, Nicholas H
id: 4880FE40-F248-11E8-B48F-1D18A9856A87
last_name: Barton
orcid: 0000-0002-8548-5240
citation:
ama: Surendranadh P, Arathoon LS, Baskett C, Field D, Pickup M, Barton NH. Effects
of fine-scale population structure on the distribution of heterozygosity in a
long-term study of Antirrhinum majus. Genetics. 2022;221(3). doi:10.1093/genetics/iyac083
apa: Surendranadh, P., Arathoon, L. S., Baskett, C., Field, D., Pickup, M., &
Barton, N. H. (2022). Effects of fine-scale population structure on the distribution
of heterozygosity in a long-term study of Antirrhinum majus. Genetics.
Oxford University Press. https://doi.org/10.1093/genetics/iyac083
chicago: Surendranadh, Parvathy, Louise S Arathoon, Carina Baskett, David Field,
Melinda Pickup, and Nicholas H Barton. “Effects of Fine-Scale Population Structure
on the Distribution of Heterozygosity in a Long-Term Study of Antirrhinum Majus.”
Genetics. Oxford University Press, 2022. https://doi.org/10.1093/genetics/iyac083.
ieee: P. Surendranadh, L. S. Arathoon, C. Baskett, D. Field, M. Pickup, and N. H.
Barton, “Effects of fine-scale population structure on the distribution of heterozygosity
in a long-term study of Antirrhinum majus,” Genetics, vol. 221, no. 3.
Oxford University Press, 2022.
ista: Surendranadh P, Arathoon LS, Baskett C, Field D, Pickup M, Barton NH. 2022.
Effects of fine-scale population structure on the distribution of heterozygosity
in a long-term study of Antirrhinum majus. Genetics. 221(3), iyac083.
mla: Surendranadh, Parvathy, et al. “Effects of Fine-Scale Population Structure
on the Distribution of Heterozygosity in a Long-Term Study of Antirrhinum Majus.”
Genetics, vol. 221, no. 3, iyac083, Oxford University Press, 2022, doi:10.1093/genetics/iyac083.
short: P. Surendranadh, L.S. Arathoon, C. Baskett, D. Field, M. Pickup, N.H. Barton,
Genetics 221 (2022).
date_created: 2022-05-26T13:44:50Z
date_published: 2022-07-01T00:00:00Z
date_updated: 2024-02-21T12:38:33Z
day: '01'
ddc:
- '576'
department:
- _id: GradSch
- _id: NiBa
doi: 10.1093/genetics/iyac083
external_id:
isi:
- '000803735800001'
pmid:
- '35639938'
file:
- access_level: open_access
checksum: cc2d56deb608bd53c5cc02f03a875107
content_type: application/pdf
creator: larathoo
date_created: 2022-05-26T12:48:15Z
date_updated: 2022-05-26T12:48:15Z
file_id: '11412'
file_name: Manuscript.pdf
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creator: larathoo
date_created: 2022-05-26T12:48:21Z
date_updated: 2022-05-26T12:48:21Z
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file_name: SupplementalMaterial.pdf
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intvolume: ' 221'
isi: 1
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language:
- iso: eng
month: '07'
oa: 1
oa_version: Submitted Version
pmid: 1
project:
- _id: 05959E1C-7A3F-11EA-A408-12923DDC885E
grant_number: P32166
name: The maintenance of alternative adaptive peaks in snapdragons
publication: Genetics
publication_identifier:
eissn:
- 1943-2631
publication_status: published
publisher: Oxford University Press
quality_controlled: '1'
related_material:
record:
- id: '14651'
relation: dissertation_contains
status: public
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relation: research_data
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- id: '9192'
relation: research_data
status: public
scopus_import: '1'
status: public
title: Effects of fine-scale population structure on the distribution of heterozygosity
in a long-term study of Antirrhinum majus
type: journal_article
user_id: 4359f0d1-fa6c-11eb-b949-802e58b17ae8
volume: 221
year: '2022'
...
---
_id: '11546'
abstract:
- lang: eng
text: Local adaptation leads to differences between populations within a species.
In many systems, similar environmental contrasts occur repeatedly, sometimes driving
parallel phenotypic evolution. Understanding the genomic basis of local adaptation
and parallel evolution is a major goal of evolutionary genomics. It is now known
that by preventing the break-up of favourable combinations of alleles across multiple
loci, genetic architectures that reduce recombination, like chromosomal inversions,
can make an important contribution to local adaptation. However, little is known
about whether inversions also contribute disproportionately to parallel evolution.
Our aim here is to highlight this knowledge gap, to showcase existing studies,
and to illustrate the differences between genomic architectures with and without
inversions using simple models. We predict that by generating stronger effective
selection, inversions can sometimes speed up the parallel adaptive process or
enable parallel adaptation where it would be impossible otherwise, but this is
highly dependent on the spatial setting. We highlight that further empirical work
is needed, in particular to cover a broader taxonomic range and to understand
the relative importance of inversions compared to genomic regions without inversions.
acknowledgement: We thank the editor and two anonymous reviewers for their helpful
and interesting comments on this manuscript.
article_number: '20210203'
article_processing_charge: Yes (via OA deal)
article_type: original
author:
- first_name: Anja M
full_name: Westram, Anja M
id: 3C147470-F248-11E8-B48F-1D18A9856A87
last_name: Westram
orcid: 0000-0003-1050-4969
- first_name: Rui
full_name: Faria, Rui
last_name: Faria
- first_name: Kerstin
full_name: Johannesson, Kerstin
last_name: Johannesson
- first_name: Roger
full_name: Butlin, Roger
last_name: Butlin
- first_name: Nicholas H
full_name: Barton, Nicholas H
id: 4880FE40-F248-11E8-B48F-1D18A9856A87
last_name: Barton
orcid: 0000-0002-8548-5240
citation:
ama: 'Westram AM, Faria R, Johannesson K, Butlin R, Barton NH. Inversions and parallel
evolution. Philosophical Transactions of the Royal Society B: Biological Sciences.
2022;377(1856). doi:10.1098/rstb.2021.0203'
apa: 'Westram, A. M., Faria, R., Johannesson, K., Butlin, R., & Barton, N. H.
(2022). Inversions and parallel evolution. Philosophical Transactions of the
Royal Society B: Biological Sciences. Royal Society of London. https://doi.org/10.1098/rstb.2021.0203'
chicago: 'Westram, Anja M, Rui Faria, Kerstin Johannesson, Roger Butlin, and Nicholas
H Barton. “Inversions and Parallel Evolution.” Philosophical Transactions of
the Royal Society B: Biological Sciences. Royal Society of London, 2022. https://doi.org/10.1098/rstb.2021.0203.'
ieee: 'A. M. Westram, R. Faria, K. Johannesson, R. Butlin, and N. H. Barton, “Inversions
and parallel evolution,” Philosophical Transactions of the Royal Society B:
Biological Sciences, vol. 377, no. 1856. Royal Society of London, 2022.'
ista: 'Westram AM, Faria R, Johannesson K, Butlin R, Barton NH. 2022. Inversions
and parallel evolution. Philosophical Transactions of the Royal Society B: Biological
Sciences. 377(1856), 20210203.'
mla: 'Westram, Anja M., et al. “Inversions and Parallel Evolution.” Philosophical
Transactions of the Royal Society B: Biological Sciences, vol. 377, no. 1856,
20210203, Royal Society of London, 2022, doi:10.1098/rstb.2021.0203.'
short: 'A.M. Westram, R. Faria, K. Johannesson, R. Butlin, N.H. Barton, Philosophical
Transactions of the Royal Society B: Biological Sciences 377 (2022).'
date_created: 2022-07-08T11:41:56Z
date_published: 2022-08-01T00:00:00Z
date_updated: 2023-08-03T11:55:42Z
day: '01'
ddc:
- '570'
department:
- _id: BeVi
- _id: NiBa
doi: 10.1098/rstb.2021.0203
external_id:
isi:
- '000812317300005'
file:
- access_level: open_access
checksum: 49f69428f3dcf5ce3ff281f7d199e9df
content_type: application/pdf
creator: dernst
date_created: 2023-02-02T08:20:29Z
date_updated: 2023-02-02T08:20:29Z
file_id: '12479'
file_name: 2022_PhilosophicalTransactionsB_Westram.pdf
file_size: 920304
relation: main_file
success: 1
file_date_updated: 2023-02-02T08:20:29Z
has_accepted_license: '1'
intvolume: ' 377'
isi: 1
issue: '1856'
keyword:
- General Agricultural and Biological Sciences
- General Biochemistry
- Genetics and Molecular Biology
language:
- iso: eng
month: '08'
oa: 1
oa_version: Published Version
project:
- _id: 05959E1C-7A3F-11EA-A408-12923DDC885E
grant_number: P32166
name: The maintenance of alternative adaptive peaks in snapdragons
publication: 'Philosophical Transactions of the Royal Society B: Biological Sciences'
publication_identifier:
eissn:
- 1471-2970
issn:
- 0962-8436
publication_status: published
publisher: Royal Society of London
quality_controlled: '1'
scopus_import: '1'
status: public
title: Inversions and parallel evolution
tmp:
image: /images/cc_by.png
legal_code_url: https://creativecommons.org/licenses/by/4.0/legalcode
name: Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)
short: CC BY (4.0)
type: journal_article
user_id: 4359f0d1-fa6c-11eb-b949-802e58b17ae8
volume: 377
year: '2022'
...
---
_id: '12264'
abstract:
- lang: eng
text: Reproductive isolation (RI) is a core concept in evolutionary biology. It
has been the central focus of speciation research since the modern synthesis and
is the basis by which biological species are defined. Despite this, the term is
used in seemingly different ways, and attempts to quantify RI have used very different
approaches. After showing that the field lacks a clear definition of the term,
we attempt to clarify key issues, including what RI is, how it can be quantified
in principle, and how it can be measured in practice. Following other definitions
with a genetic focus, we propose that RI is a quantitative measure of the effect
that genetic differences between populations have on gene flow. Specifically,
RI compares the flow of neutral alleles in the presence of these genetic differences
to the flow without any such differences. RI is thus greater than zero when genetic
differences between populations reduce the flow of neutral alleles between populations.
We show how RI can be quantified in a range of scenarios. A key conclusion is
that RI depends strongly on circumstances—including the spatial, temporal and
genomic context—making it difficult to compare across systems. After reviewing
methods for estimating RI from data, we conclude that it is difficult to measure
in practice. We discuss our findings in light of the goals of speciation research
and encourage the use of methods for estimating RI that integrate organismal and
genetic approaches.
acknowledgement: 'We are grateful to the participants of the ESEB satellite symposium
‘Understanding reproductive isolation: bridging conceptual barriers in speciation research’ in 2021 for the interesting discussions that helped us clarify the thoughts presented in this article. We thank Roger
Butlin, Michael Turelli and two anonymous reviewers for their thoughtful comments
on this manuscript. We are also very grateful to Roger Butlin and the Barton Group
for the continued conversa-tions about RI. In addition, we thank all participants
of the speciation survey. Part of this work was funded by the Austrian Science Fund
FWF (grant P 32166)'
article_processing_charge: Yes (via OA deal)
article_type: review
author:
- first_name: Anja M
full_name: Westram, Anja M
id: 3C147470-F248-11E8-B48F-1D18A9856A87
last_name: Westram
orcid: 0000-0003-1050-4969
- first_name: Sean
full_name: Stankowski, Sean
id: 43161670-5719-11EA-8025-FABC3DDC885E
last_name: Stankowski
- first_name: Parvathy
full_name: Surendranadh, Parvathy
id: 455235B8-F248-11E8-B48F-1D18A9856A87
last_name: Surendranadh
- first_name: Nicholas H
full_name: Barton, Nicholas H
id: 4880FE40-F248-11E8-B48F-1D18A9856A87
last_name: Barton
orcid: 0000-0002-8548-5240
citation:
ama: Westram AM, Stankowski S, Surendranadh P, Barton NH. What is reproductive isolation?
Journal of Evolutionary Biology. 2022;35(9):1143-1164. doi:10.1111/jeb.14005
apa: Westram, A. M., Stankowski, S., Surendranadh, P., & Barton, N. H. (2022).
What is reproductive isolation? Journal of Evolutionary Biology. Wiley.
https://doi.org/10.1111/jeb.14005
chicago: Westram, Anja M, Sean Stankowski, Parvathy Surendranadh, and Nicholas H
Barton. “What Is Reproductive Isolation?” Journal of Evolutionary Biology.
Wiley, 2022. https://doi.org/10.1111/jeb.14005.
ieee: A. M. Westram, S. Stankowski, P. Surendranadh, and N. H. Barton, “What is
reproductive isolation?,” Journal of Evolutionary Biology, vol. 35, no.
9. Wiley, pp. 1143–1164, 2022.
ista: Westram AM, Stankowski S, Surendranadh P, Barton NH. 2022. What is reproductive
isolation? Journal of Evolutionary Biology. 35(9), 1143–1164.
mla: Westram, Anja M., et al. “What Is Reproductive Isolation?” Journal of Evolutionary
Biology, vol. 35, no. 9, Wiley, 2022, pp. 1143–64, doi:10.1111/jeb.14005.
short: A.M. Westram, S. Stankowski, P. Surendranadh, N.H. Barton, Journal of Evolutionary
Biology 35 (2022) 1143–1164.
date_created: 2023-01-16T09:59:24Z
date_published: 2022-09-01T00:00:00Z
date_updated: 2023-08-04T09:53:40Z
day: '01'
ddc:
- '570'
department:
- _id: NiBa
doi: 10.1111/jeb.14005
external_id:
isi:
- '000849851100002'
pmid:
- '36063156'
file:
- access_level: open_access
checksum: f08de57112330a7ee88d2e1b20576a1e
content_type: application/pdf
creator: dernst
date_created: 2023-01-30T10:05:31Z
date_updated: 2023-01-30T10:05:31Z
file_id: '12448'
file_name: 2022_JourEvoBiology_Westram.pdf
file_size: 3146793
relation: main_file
success: 1
file_date_updated: 2023-01-30T10:05:31Z
has_accepted_license: '1'
intvolume: ' 35'
isi: 1
issue: '9'
keyword:
- Ecology
- Evolution
- Behavior and Systematics
language:
- iso: eng
month: '09'
oa: 1
oa_version: Published Version
page: 1143-1164
pmid: 1
project:
- _id: 05959E1C-7A3F-11EA-A408-12923DDC885E
grant_number: P32166
name: The maintenance of alternative adaptive peaks in snapdragons
publication: Journal of Evolutionary Biology
publication_identifier:
eissn:
- 1420-9101
issn:
- 1010-061X
publication_status: published
publisher: Wiley
quality_controlled: '1'
related_material:
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relation: other
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scopus_import: '1'
status: public
title: What is reproductive isolation?
tmp:
image: /images/cc_by.png
legal_code_url: https://creativecommons.org/licenses/by/4.0/legalcode
name: Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)
short: CC BY (4.0)
type: journal_article
user_id: 4359f0d1-fa6c-11eb-b949-802e58b17ae8
volume: 35
year: '2022'
...
---
_id: '12265'
acknowledgement: We are very grateful to the authors of the commentaries for the interesting
discussion and to Luke Holman for handling this set of manuscripts. Part of this
work was funded by the Austrian Science Fund FWF (grant P 32166).
article_processing_charge: Yes (via OA deal)
article_type: letter_note
author:
- first_name: Anja M
full_name: Westram, Anja M
id: 3C147470-F248-11E8-B48F-1D18A9856A87
last_name: Westram
orcid: 0000-0003-1050-4969
- first_name: Sean
full_name: Stankowski, Sean
id: 43161670-5719-11EA-8025-FABC3DDC885E
last_name: Stankowski
- first_name: Parvathy
full_name: Surendranadh, Parvathy
id: 455235B8-F248-11E8-B48F-1D18A9856A87
last_name: Surendranadh
- first_name: Nicholas H
full_name: Barton, Nicholas H
id: 4880FE40-F248-11E8-B48F-1D18A9856A87
last_name: Barton
orcid: 0000-0002-8548-5240
citation:
ama: 'Westram AM, Stankowski S, Surendranadh P, Barton NH. Reproductive isolation,
speciation, and the value of disagreement: A reply to the commentaries on ‘What
is reproductive isolation?’ Journal of Evolutionary Biology. 2022;35(9):1200-1205.
doi:10.1111/jeb.14082'
apa: 'Westram, A. M., Stankowski, S., Surendranadh, P., & Barton, N. H. (2022).
Reproductive isolation, speciation, and the value of disagreement: A reply to
the commentaries on ‘What is reproductive isolation?’ Journal of Evolutionary
Biology. Wiley. https://doi.org/10.1111/jeb.14082'
chicago: 'Westram, Anja M, Sean Stankowski, Parvathy Surendranadh, and Nicholas
H Barton. “Reproductive Isolation, Speciation, and the Value of Disagreement:
A Reply to the Commentaries on ‘What Is Reproductive Isolation?’” Journal of
Evolutionary Biology. Wiley, 2022. https://doi.org/10.1111/jeb.14082.'
ieee: 'A. M. Westram, S. Stankowski, P. Surendranadh, and N. H. Barton, “Reproductive
isolation, speciation, and the value of disagreement: A reply to the commentaries
on ‘What is reproductive isolation?,’” Journal of Evolutionary Biology,
vol. 35, no. 9. Wiley, pp. 1200–1205, 2022.'
ista: 'Westram AM, Stankowski S, Surendranadh P, Barton NH. 2022. Reproductive isolation,
speciation, and the value of disagreement: A reply to the commentaries on ‘What
is reproductive isolation?’ Journal of Evolutionary Biology. 35(9), 1200–1205.'
mla: 'Westram, Anja M., et al. “Reproductive Isolation, Speciation, and the Value
of Disagreement: A Reply to the Commentaries on ‘What Is Reproductive Isolation?’”
Journal of Evolutionary Biology, vol. 35, no. 9, Wiley, 2022, pp. 1200–05,
doi:10.1111/jeb.14082.'
short: A.M. Westram, S. Stankowski, P. Surendranadh, N.H. Barton, Journal of Evolutionary
Biology 35 (2022) 1200–1205.
date_created: 2023-01-16T09:59:37Z
date_published: 2022-09-01T00:00:00Z
date_updated: 2023-08-04T09:53:41Z
day: '01'
ddc:
- '570'
department:
- _id: NiBa
doi: 10.1111/jeb.14082
external_id:
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name: The maintenance of alternative adaptive peaks in snapdragons
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title: 'Reproductive isolation, speciation, and the value of disagreement: A reply
to the commentaries on ‘What is reproductive isolation?’'
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